William G. Dail scite author profile

The endogenous biosynthesis of nitric oxide (NO) is increased during gestation. To begin our investigation of a possible tissue source (or sources), we examined the placenta. We postulated that analogous to the endothelium of blood vessels, the syncytiotrophoblast (STr) cell layer that lines the intervillous blood space of the human placenta would express NO synthase. Our results show that human placental villi express a calcium- and calmodulin-sensitive form of NO synthase, located mainly in the microsomal cell fraction. By in situ hybridization using a riboprobe generated from human endothelial NO synthase cDNA, we observe NO synthase mRNA expression in STr. The STr also shows NADPH-diaphorase staining, indicating the presence of NO synthase, and most likely other flavin-containing enzymes involved in sex steroid metabolism. NO synthase activity was also detected in the villi of a complete mole placenta (which lacks fetal vessels), further supporting a trophoblastic origin. Our findings suggest a previously unrecognized role for STr-derived NO in placental function.

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Selective upregulation of arterial endothelial nitric oxide synthase in pulmonary hypertension

Resta

Gonzales

Dail

et al. 1997

American Journal of Physiology-Heart and Circulatory Physiology

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We have previously demonstrated that arterial, but not venous, vasodilatory responses to endothelium-derived nitric oxide (EDNO)-dependent agonists are enhanced in lungs isolated from rats with chronic hypoxia (CH)-induced pulmonary arterial hypertension. These data suggest that CH is associated with increased endothelial nitric oxide synthase (eNOS) activity within the pulmonary arterial vasculature. In addition, the correlation of increased pulmonary arterial pressure with selectively enhanced arterial responsiveness to EDNO-mediated agonists suggests that arterial hypertension, rather than hypoxia per se, is a contributing factor in this response. Therefore, we hypothesized that 1) CH selectively upregulates eNOS within the pulmonary arterial vasculature and 2) monocrotaline (MC)-induced pulmonary arterial hypertension selectively enhances pulmonary arterial dilation to EDNO-dependent dilators and upregulates arterial eNOS. We examined the responses to the EDNO-dependent dilators arginine vasopressin and ionomycin in U-46619-constricted isolated perfused lungs from control and MC-treated rats. Microvascular pressure was assessed by the double-occlusion technique, allowing calculation of segmental resistances. Lungs from MC-treated rats exhibited augmented arterial dilation to arginine vasopressin compared with control lungs. However, the responses to ionomycin were not different between the two groups. Quantitative immunocytochemistry was used to compare pulmonary eNOS immunoreactivity in vessels from control, CH, and MC-treated rats. eNOS staining was more intense in the arteries of CH and MC-treated rats compared with those of control animals, whereas CH and MC treatment had no effect on eNOS staining in veins. We conclude that pulmonary arterial hypertension, or altered vascular mechanical forces associated with hypertension, may be responsible for the augmented EDNO-dependent arterial dilation and upregulation of arterial eNOS in lungs from CH and MC-treated rats.

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Scanning electron microscopy of cell surfaces following removal of extracellular material

et al. 1976

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The application of scanning electron microscopy to the study of cell surfaces is limited in intact tissues, because extracellular material may often obscure the details of nonluminal surfaces. To remove connective tissue elements we have treated human skin and both kidney, and an autonomic ganglion of the rat with hydrochloric acid and collagenase. Regional variations in the basal surface of the nephron are noted following removal of the basement membrane. The basilar interdigitations of the cells of the proximal tubule appeared as parallel ridges encircling the tubule. Ridges on the parietal epithelium of Bowman's capsule were randomly arranged and alternated with smooth surfaces. The dermal surface of the human epidermis has an alveolar or honeycomb appearance due to the elevation of the epidermal ridges and numerous pits for the dermal pegs. At higher magnifications the basal surface of cells of the stratum germinativum possessed numerous and irregular projections. Neurons with their processes are evident in the autonomic ganglion. The soma of the neurons are enclosed by flattened satellite cells. Irregular spaces between opposed satellite cells are interpreted as regions for the passage of processes related to the ganglion cells. Nodes of Ranvier were clearly seen along nerve fibers. Some pitting of the nerve fibers was also noted. The HCl-collagenase method has the advantage of the removal of collagen and basement membrane while preserving the structural integrity of the cell surface.

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The major ganglion in the pelvic plexus of the male rat

1975

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To further evaluate the role of autonomic ganglia in the regulation of pelvic visceral activity, the neural elements in the major pelvic ganglion of the male rat have been studied with histochemixal and electron microscopic techniques. The principal findings are that the ganglion is composed of cholinergic and adrenergic ganglion cells as well as small intensely fluorescent (SIF) cells. Polarity in the ganglion is indicated by clustering of small ganglion cells which stain intensely for acetylcholinesterase (AChE) along the pelvic nerve while larger cells, with weak to moderate AChE activity, collect near small branches of the hypogatrric nerve. Some cholinergic ganglion cells are enclosed by a plexus of adrenergic terminals. SIF cells appear to be in contact with both cholinergic and adrenergic cells, although many of the fluorescent beads around adrenergic neurons may be short dendrites of ganglion cells, rather than processes of SIF cells. Two types of SIF cells may be distingiosjed on the basis of size and morphology of their granulated vesicles. Afferent synapses of the cholinergic type were common on SIF cells of the large granule and small granule type. Portions of SIF cells with large granules occur within the capsule of ganglion cells. Contacts seen here were interpreted as efferent synapses from SIF cells to the dendrites of ganglion cells.

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William G. Dail

Responses to cortical injury: I. Methodology and local effects of contusions in the rat

Expression of nitric oxide synthase by syncytiotrophoblast in human placental villi

Selective upregulation of arterial endothelial nitric oxide synthase in pulmonary hypertension

Scanning electron microscopy of cell surfaces following removal of extracellular material

The major ganglion in the pelvic plexus of the male rat

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